REFERENCES
- Abe F., Miura T., Nagahama T., Inoue A., Usami R., Horikoshi K. (2001) Biotechnol. Lett., 23(24), 2027–2034.
- Achary V., Panda B. (2010) Mutagenesis, 25(2),201–209. 70
- Adachi H., Ishii N. (2000) J. Gerontology Series A—BioLogical and Medical Sciences, 55, B280–B285.
- Alvarez-Peral J., Zaragoza O., Pedren Y., Argüelles J-C. (2002) Microbiology, 148, 2599–2606.
- Angelova M., Dolashka-Angelova P., Ivanova E., Serkedjieva J., Slokoska L., Pashova S. (2001) Microbiology (UK) 147, 1641–1650.
- Angelova M., Genova L., Slokoska L., Pashova S. (1995) Can. J. Microbiol., 41, 978–983.
- Avery S. (2001) Adv. Appl. Microbiol., 49, 111–142.
- Beauchamp C., Fridovich I. (1971) Anal. Biochem., 44, 276–287.
- Becker A. (1978) Anal. Biochem., 86, 56–64.
- Beers R.F., Sizer I.W. (1952) J. Biol. Chem., 195, 133–140.
- Cao X., Ma L.Q., Tu C. (2004) Environmental Pollution, 128, 317–325.
- Chamseddine M., Wided B.A., Guy H., Marie-Edith C., Fatma J. (2009) Plant Growth Regulation, 57(1), 89–99.
- Colpaert J.V. (2008) In: Stress in Yeasts and Filamentous Fungi (S.V. Avery, M. Stratford, P. van West, Eds.), Academic Press, London, 157–173.
- Crawford D.R., Davies K.J. (1994) Environ. Health Perspect., 102(10), 25–28.
- Davies K.J., Goldberg A.L. (1987) J. Biol. Chem., 262, 8227–8234.
- Dolashka-Angelova P., Stevanovic S., Dolashki A., Angelova M., Pashova S., Krumova E., Serkejieva J., Zacharieva S., Voelter W. (2004) Biochem. Biophys. Res. Communic., 317, 1006–1016.
- Francois J., Parrou J.L. (2001) FEMS Microbiol. Rev., 25, 125–145.
- Fujs S., Gazdag Z., Poljsak B., Stibilj V., Milacic R., Pesti M., Raspor P., Batic M. (2005) J. Bas. Microbiol., 45(2), 125–135.
- Halliwell B., Gutteridge J. (1999) Free Radicals in Biology and Medicine, Oxford University Press, Oxford, 36–104.
- Hu P., Brodie E., Suzuki Y., McAdams H., Andersen G. (2005) J. Bacteriol., 187(24), 8437–8449.
- Itziou A., Kaloyianni M., Dimitriadis V.K. (2011) Arch. Environ. Contam. Toxicol., (in press).
- Juknys R., Račaitė M., Vitkauskaitė G. (2010) Ekologija, 56(1–2), 1–9.
- Knigge T., Köhler H.R. (2000) Environ. Pollut., 108(2), 209–217.
- Krumova E., Pashova S., Dolashka-Angelova P., Stefanova Tz., Angelova M. (2009) Proc. Biochem., 44(3), 288–295.
- Levine R., Garland D., Oliver C., Amici A., Climent I., Lenz A., Ahn B., Shaltiel S., Stadtman E. (1990) Meth. Enzymol., 186, 464–478.
- Li H., Du G., Li H., Wang H., Yan G., Zhan J., Huang W. (2010) Am. J. Enol. Vitic., 61(4), 529–535.
- Li Q., Harvey L., McNeil, (2008) Proc. Biochem., 43(3), 238–243.
- Lidzbarsky G., Shkolnik T., Nevo E. (2009) Evolution Canyon, Mt. Carmel, Israel, PLoS ONE, 4(6),e5914, 1–8.
- Liu H., Wang W., Zhang J., Wang X. (2006) Ecotoxicol. Environ. Saf., 65, 350–354.
- Lowry O., Rosenbrough H., Faar A., Randall R. (1951) J. Biol. Chem., 193, 265–275.
- Lushchak V. (2011) Comp. Biochem. Physiol., Part C, 153(2), 175–190.
- Martínez-Esparza M., Aguinaga A., González-Párraga P., García-Peñarrubia P., Jouault T., Argüelles J. (2007) Clin. Microbiol. Infect., 13(4), 384–394.
- Neves M-J., Francois J. (1992) Biochem. J., 288, 859–864.
- Nyström T. (2005) EMBO Journal, 24, 1311–1317.
- Orell A., Navarro C., Arancibia R., Mobarec J., Jerez C. (2010) Biotechnol. Adv., 28(6), 839–848.
- Parrou J.L., Francois J. (1997) Anal. Biochem., 248, 186–188.
- Pawlowska T., Charvat I. (2004) Appl. Environ. Microbiol., 70(11), 6643–6649.
- Pena L., Zawoznik M., Tomaro M., Gallego S. (2008) Chemosphere, 72, 741–746.
- Pérez-Torrado R., Gimeno-Alcañiz J., Matallana E. (2002) Appl. Environ. Microbiol., 68, 3339–3344.
- Rellán-Álvarez R., Ortega-Villasante C., Álvarez-Fernández A., del Campo F., Hernández L. (2006) Plant and Soil, 279, 41–50.
- Santovito G., Salvato B., Manzano M., Beltramini M. (2002) Yeast 19(7), 631–640.
- Shalaby A.M. (2003) Pak. J. Biol. Sci., 6(16), 1416–1422.
- Shanmuganathan A., Avery S., Willetts S., Houghton J. (2004) FEBS Lett., 556, 253–259.
- Simola M., Hanninen A., Stranius S., Makarow M. (2000) Mol. Microbiol., 37, 42–53.
- Somogy M. (1952) J. Biol. Chem., 195, 19–23.
- Srivastava A., Bhargava P., Mishra Y., Shukla B., Rai L. (2006) J. Bas. Microbiol., 46(2), 135–144.
- Tani A., Inoue C., Tanaka Y., Yamamoto Y., Kondo H., Hiradate S., Kimbara K., Kawai F. (2008) Microbiology, 154, 3437–3446.
- Temesvari L., Klein G., Cotter D. (1996) Mycology, 88(5), 819–830.
- Towbin T., Staehelin G., Gordon J. (1979) Proc. Nat. Acad. Sci. USA, 76, 4350–4354.
- Tsuji N., Hirayanagi N., Okada M., Miyasaka H., Hirata K., Zenk M., Miyamoto K. (2002) Biochem. Biophys. Res. Commun., 293, 653–659.
- Valko M., Morris H., Cronin M. (2005) Curr. Med. Chem., 12(10), 1161–1208.
- Vandecamen A., Francoise J., Torres B., Maia J., Hers H. (1989) J.Gen. Microbiol., 136, 137–146.
- Vandesteene L., Ramon M., Le Royc K., Van Dijck P., Rolland F. (2010) Molecular Plant, 3(2), 406–419.
- Westwater C., Balish E., Schofield D. (2005) Eukaryotic Cell, 4(10), 1654–1661.
- Westwater J., Niall F., McLaren Dormer U., Jamieson D. (2002) Yeast, 19, 233–239.